English

Nucleosynthesis Calculations from Core-Collapse Supernovae

Astrophysics 2008-12-01 v1

Abstract

We review some of the uncertainties in calculating nucleosynthetic yields, focusing on the explosion mechanism. Current yield calculations tend to either use a piston, energy injection, or enhancement of neutrino opacities to drive an explosion. We show that the energy injection, or more accurately, an entropy injection mechanism is best-suited to mimic our current understanding of the convection-enhanced supernova engine. The enhanced neutrino-opacity technique is in qualitative disagreement with simulations of core-collapse supernovae and will likely produce errors in the yields. But piston-driven explosions are the most discrepant. Piston-driven explosion severely underestimate the amount of fallback, leading to order-of-magnitude errors in the yields of heavy elements. To obtain yields accurate to the factor of a few level, we must use entropy or energy injection and this has become the NuGrid collaboration approach.

Keywords

Cite

@article{arxiv.0811.4648,
  title  = {Nucleosynthesis Calculations from Core-Collapse Supernovae},
  author = {Christopher L. Fryer and Patrick Young and Michael Bennett and Steven Diehl and Falk Herwig and Raphael Hirschi and Aimee Hungerford and Marco Pignatari and Georgios Magkotsios and Gabriel Rockefeller and Francis X. Timmes},
  journal= {arXiv preprint arXiv:0811.4648},
  year   = {2008}
}

Comments

To appear in the Conference Proceedings for the "10th Symposium on Nuclei in the Cosmos (NIC X)", July 27 - August 1 2008, Mackinack Island, Michigan, USA

R2 v1 2026-06-21T11:46:11.300Z